Hatch covers



Dec. 27, 1966 J, JERQMEY 3,294,154

HATCH COVERS Filed May 15, 1959 5 Sheets-Sheet l INVENTOR JACK JEROME ATTOR EYS Dec. 27, 1966 J,JEROME I 3,294,154

HATCH COVERS Filed May 15', 1959 5 Sheets-Sheet z Ff q- J INVENTOR JACK JEROME ATTOR ys J. JEROME I 3,294,154

HATCH COVERS Dec. 27, 1966 S Sheets-Sheet 5 Filed May 15, 1959 Ff qif INVENTOR JACK JEROME ATTOR EY 5 Sheets-Sheet 4 J JEROME HATCH COVERS Dec. 27, 1966 Filed May 15, 1959 HATCH COVERS Filed May 15, 1959 s Sheets-Sheet 5 INVENTOR JACK JEROME ATTOR YS United States Patent 3,294,154 HATCH COVERS Jack Jerome, East Williston, N.Y., assignor to Marine Steel Corporation, New York, N.Y. Filed May 15, 1959, Ser. No. 813,522 1 Claim. (Cl. 160188) This invention relates to hatch covers and more particularly to hatch covers formed of a plurality of sections adapted to be selectively moved either to a position covering a hatch or to a position clear of a hatch.

On object of the present invention is to provide an improved hatch cover which can be efliciently and quickly and selectively positioned over and sealed to a hatch or positioned clear of a hatch.

Another object is to provide an improved hatch cover comprising a plurality of sections having novel means for opening and closing said sections whereby said sections are either folded one upon the other at a position removed from the hatch or positioned over a hatch.

Another object is to provide a novel means for supporting the sections of a hatch cover while the same are either being moved clear of the hatch or into a position to cover the hatch.

Another object is to provide a novel means to seal the hatch cover to the hatch.

Another object is to provide a novel means for unsealing a hatch cover.

A still further object is to provide a novel system for controlling the operation of a plurality of hatch covers whereby said covers may be simultaneously moved into a position over the hatches and sealed thereto and simultaneously unsealed from the hatches and moved to a position clear of the hatches.

The above and further objects and novel features of the present invention will more fully appear from the following detail description when the same is read in connection with the accompanying drawings. It is to be expressly understood, however, that the drawings are for the purpose of illustration only, and are not intended as a definition of the limits of the invention.

In the drawings, wherein like reference characters refer to like parts throughout the several views,

FIG. 1 is a top plan view of a ship showing the deck and three hatches together wtih hatch covers;

FIG. 2 is a side elevation of a hatch cover, said view being taken on line 2-2 of FIG. 1;

FIG. 3 is a side elevational view of a hatch cover shown in a partially opened position;

FIG. 4 is a side elevational view of the hatch cover shown in a full opened position;

FIG. 5 is a side elevational view of a modified version of the hatch cover comprising four sections, shown in full opened position;

FIG. 6 is a fragmentary top plan view of the modified hatch cover shown in FIG. 5 and taken along the confronting edges of the junction of two pair of cover sections, said sections being in their horizontal extended position and covering a hatch;

FIG. 7 is an end elevational view of the hatch cover structure taken along line 77 of FIG. 2;

FIG. 8 is an enlarged fragmentary side elevational view of the power actuated hatch cover opening and closing means, said means being shown in the position it occupies when the hatch cover is in its closed position;

FIG. 9 is an enlarged fragmentary side elevational view of the cover guide wheel and seal breaking mechanisms shown in FIG. 2;

FIG. 10 is an enlarged side elevational View of the cover edge locking mechanism shown in FIG. 7;

FIG. 11 is a side elevational view of the mechanism for locking the hatch cover sections in open position; and

FIG. 12 is a schematic diagram of the hydraulic system.

Referring now to the drawings, there is shown one form of a hatch cover and a system for operating said cover embodying the present invention. It will be understood, however, that the hatch cover structure and system for operating the same may be advantageously and effectively employed in connection with environments other than ship hatches.

In FIG. 1 of the drawings, there is shown a top plan view of a ship having a deck 10 and a series of hatches of each having a hatch cover 11. As shown in FIG. 2, there is a coaming 12 surrounding each hatch comprising a vertically extending member 13 and a horizontally extending member 14. The hatch cover 11 comprises two sections 15 and 16 each being of similar construction and comprising a framework made from longitudinally extending angle irons 17 and transversely extending angle irons 18. To this framework, there is secured by suitable means, such as Welding, an outer skin 19 which extends beyond the side edges of the framework and extends over the horizontal portions 14 of the coaming as more clearly shown in FIG. 7. One end of section 15 is secured by a pair of hinge members 20 to the horizontal portion 14 of the coaming. A cover section support and seal breaking mechanism 21 is secured to one end of section 16. The cover section and hinge and operating mechanism generally designated as 22 is secured to the confronting edges of the cover sections as shown in FIG. 8. Securely fastened to the under side of the confronting end of section 15 is a gusset plate 23 which in turn rigidly supports a gear segment 24. A gear segment 25 is rigidly fastened to a piston frame 26 which in turn is secured to the underside of the confronting end of the frame member of section 16. A cylinder member 28 having a piston 29 and a piston rod 30 is pivotally mounted to frame 26. Ports 31 and 32 are located at each end of the cylinder 28 and are connected by suitable means to a fluid pressure system, to be hereinafter described, whereby the piston and piston rod are horizontally reciprocated by directing a fluid pressure first through one ort and then the other. The gear segments 24 and 25 are so positioned that they engage each other as shown in FIG. 8. A pair of link members 33 are positioned on each side of the gear segments 24 and 25 and are pivotally secured to gear segment 24 by pin 34 and to gear segment 25 by pin 35. The outer end of the piston rod 30 extends into a cutaway portion 36 on the rear of gear section 25 and is pivotally secured to downwardly depending portions on link members 33 by pin 37. The parts as positioned in FIG. 8 are in the same position as shown in FIG. 2 wherein the cover sections 15 and 16 are horizontally extended and covering hatch. When it is desired to open the hatch cover, fluid pressure is directed into port 32 which in turn moves the piston 29 and piston rod 30 to the left. As the piston rod moves to the left, it exerts, through its pivotal connection to links 33, an upward pressure on said links which in turn move the gear segments 24, 25 and the integrally formed confronting ends of sections 15, 16 upwardly. At the full leftward movement of piston 29 the gear segments 24, 25 and the confronting ends of sections 15, 16 are in the position shown in FIG. 4. The piston cylinder 28 is pivotally connected at 38 to the piston frame 26 and at the other end by the pivotal connection of the piston rod to the link members 33 so that the center line of the cylinder is freely shifted as sections 15, 16 are moved into open and closed positions. As shown in FIG. 7, there are three sets of gears 24, 25 of identical construction with only one set of gears being actuated by cylinder 28 in the manner described above so that all sets of gears 24, 25 operate simultaneously with each other'in moving sections-15 and 16 to the opened position as shown in FIG. 4.

An upwardly extending steel rib member 39 is secured to the top surface of horizontal portion 14 of the coaming and extends around the edge of the hatch. A gasket 40 made of rubber or other resilient material is secured to the lower surface of the framework 17 on each section 15 and 16 except along the confronting end of each section in such a manner that when the sections 15 and 16 are secured to the coaming 12 in a manner hereinafter to be described, the rib members 39 will extend into and seal against the gaskets 40. The sealing member between the confronting ends of sections 15 and 16 is more clearly shown in FIG. 7. Secured to the outer surface of the end frame 18 at the confronting end of section 15 are two gaskets 41 made of rubber or other suitable resilient material which encase a steel rib 42. The gasket members 41 and steel rib 42 are formed in the shape of a broad A. A similarly shaped resilient gasket member 43 is secured to the outer surface of the frame member 18 at the confronting end of section 16 so that when sections 15 and 16 are moved to extend horizontally across the hatch, the gaskets 41 and 43 are in register with each other and the steel rib 42 bites into the gasket 43 to form an airtight and watertight seal between the confronting ends of the two sections. As shown in FIG. 2, the outer skin 19 at the confronting ends of each section do not touch each other when the sections are in a horizontal position covering the hatch so that any sea water which reaches the hatch cover will seep down into this opening, and because of the broad A shape of the sealing member between the two sections, will drain to either side of the hatch.

In order to support the cover sections 15 and 16 in a position clear of the steel rib members 39 and to aid in the movement of the cover sections during the opening and closing thereof, there is provided a pair of cover section support and seal breaking mechanisms 21 more clearly shown in FIG. 9. These mechanisms are located on each forward corner of cover section 16, as shown in FIGS. 2, 7 and 9, and since both are of identical construction and operation a description of one will be suflicient for an understanding of'all. A frame 38 having a top plate 49, a bottom plate 50 and a pair of side plates 51 are suitably secured together and to the bottom surface of the skin 19 such as by welding. A bell crank 52 is pivotally mounted between plates 51 by a pin 53 and has an integrally formed forward portion 54 and an integrally formed rearwardly extending portion 55. A wheel 56 is rotatably mounted in suitable bearings in the end of portion 54. Each wheel 56 is suitably grooved to ride in a track 57 which is mounted on the top surface of the coaming flange 14 and which longitudinally extends the length of each side of the hatch. A generally vertically extending link 58 has its upper end pivotally secured to the rear portion 55 of crank 52 by a pin 59. A wheel 60 is rotatably mounted in suitable hearings in the other end of link 58 and freely rides on the upper surface of plate 50. A cylinder 61 having a piston and piston rod 62 is pivotally secured at one end to a vertically extending plate 63 on frame 48. One end of piston rod 62 is pivotally secured at 64 to the central portion of link 58. Ports 65, 66 are located at each end of the cylinder whereby fluid pressure can be introduced to either side of the piston in a manner hereinafter described to reciprocate the same. As the piston rod is moved to the left, as viewed in FIG. 9, the lower end of link 58 will be pivotally moved to the left on wheel 60 which will in turn raise the rear portion 55 of the crank 52 and pivot said crank to simultaneously move the forward portion 54 and wheel 56 downwardly. The cover sections 15, 16 will thus be elevated above the level of the coaming section 14 and out of the sealed engagement with the rib 39. As will be hereinafter described, the cover sections 15, 16 are secured to the coaming 12 to form an airtight seal.

Thus, as wheels 56 are moved downwardly, this seal is broken at the two forward corners of sections 16 and the wheels will slidably support the cover sections above the coaming and the ribs 39 during the opening thereof through the operation of the mechanisms 21. The link 58 is pivotally moved toward crank 52 until it strikes a stop 67 on the rear surface of the crank. When link 58 is pivotally moved to be positioned against stop 67, the plane extending between the center of pivot point 59 and the center of wheel 60 lies out of a plane extending at right angles to the surface of plate 50. In this manner the weight of cover sections 15, 16 will prevent wheel 60 from moving to the right, as shown in FIG. 9, and the crank 52 and wheel 56 will support the cover sections above the ribs 39 without the assistance of the fluid pressure in piston 61. An adjustable stop 68 threadedly secured to a horizontal extension of plate 51 engages the forward end of crank portion 55 and provides an adjust-.

ment of the downward movement of wheel 56 which in turn controls the vertical movement of cover sections 15, 16 in relation to ribs 39.

As shown more clearly in FIGS. 7 and 10, there is provided a plurality of edge locking means 69 spaced about the side edges of the cover sections 15, 16. Since all of the locking means are of identical construction and operation, a description of one will be sufficient for an understanding of all. Mounted to the upper surface of portion 14 of the coaming is a support having a pair of spaced apart rearwardly extending pivot supports 70 and a single upwardly extending bifurcated pivot support 71 positioned between supports 70. A pair of bell cranks 72 having arms 73 and 74 are pivotally mounted in supports .70 and on each side of support 71. An arm 75 having an adjustable contact pad 76 at one end is pivotally mounted at its other end in the bifurcated support 71. A pair of connecting links 77 are pivotally connected at one end on each side and to the central portion of arm 75 and at the other end to the ends of arms 74 of bell crank 72. The arms 73 of lbell crank 72 are pivotally connected to a downwardly extending piston and piston rod 78 which is mounted in a cylinder 79. The lower end of cylinder 79 is pivotally mounted to a suitable support which is secured to the lower surface of coaming portion 14. Ports 80, 81 are located at either end of cylinder 79 and are connected to a fluid supply system whereby fluid may be selectively directed into first one and then the other to reciprocally move the piston. When the piston and piston rod are moved downwardly the arm 75 and contact pad 76 are pivotally mover through a vertical arcuate path of approximately degrees through bell crank 72 and links 77, A downwardly ex tending channel member 82 is secured to the lower surface of outer skin 19 and positioned so that contact pad 76 will engage the same when arm 75 is pivotally rotated 180 degrees from the position shown in FIG. 10. The arms 75 and pads 76 will pull the cover sections into contact with the ribs 39 causing an airtight seal to be effected. As will be described hereinafter, all of the cover edge locking mechanisms will be actuated simultaneously so that the peripheral edges of said sections will be simultaneously pulled down and sealed. Because of the arrangement of the pivot point of bell crank 72, the pivot point of arm 75, and the connecting links 77, the pivotal movement of arm 75 can be accomplished only through a force applied to the arm 73 of the bell crank 72. Thus, when arm 75 is pivotally moved so that pad 76 is in contact with member 82, it can only be pivotally moved through an upward force exerted on arm 73 of bell crank 72. In this manner the fluid pressure in cylinder 79 can be cut off entirely after the cover sections 15, 16 have been sealed and the edge locking means 69 will be :locked until the piston and piston rod 78 are actuated,

An open cover locking mechanism 85, as shown in FIG. 11, is secured to the horizontal coaming section 14 at a position forward of and between the hinge members 20 for the purpose of holding the opened cover sections from accidently closing. The structure of lock mechanism 85 is identical with the structure of the cover edge locking means 69 except for the shape of arm 86 which has a hooked portion at its outer end to engage a flange 87 which is secured to the lower surface of section 16 as shown in FIGS. 3 and 4. Thus, when the cover sections 15, 16 are positioned as shown in FIG. 4, the fluid pressure is directed to cause the piston rod 78' to move downwardly which will in turn cause arm 86 to move through a verticalarcuate path until the hooked portion of arm 86 is engaged with flange 87.

In the modified cover structure shown in FIG. 5, a second pair of cover sections 88, 89 of similar construction as sections 15, 16 are hingedly connected in tandem to sections 15,-16 by a plurality of links 90 pivotally connected to the confronting edges of the frames for sections 16 and 88. Secured to the outer corners of the confronting edges of sections 16 and 88 and at the forward end of section 88 are cover section support means 91 and 92, respectively, of identical construction, function and operation as cover section support means 21 previously described, to give a slidable support for said sections on the upper surface of coaming portion 14 during opening and closing of the hatch cover. As more clearly shown in FIG. 6, the cover support means 92 are positioned outwardly from its cover frame a greater distance than cover support means 91 so that when the cover sections are extended horizontally end to end and covering the hatch said-support means are located adjacent each other. As stated earlier, cover support means 91, 92 function in the same manner as cover support means 21 and all are operated simultaneously so that the airtight seal formed by the cover edge locking mechanism 69 is broken at the corners of the confronting edges of sections 16 and 88 as well as at the forward corners of section 89. The sealing mechanism 'between the confronting edges of each of sections 15, 16, 88 and 89 is identical in construction and operation as the seal between the confronting edges of sections 15, 16- as shown in FIGS. 3 and 7 and previously described. The cover section operating mechanisms 22 located between sections 15, 16 and 88, 89 are of the same construction and operation as previously described in relation to sections 15 and 16. It will be understood that numerous other pairs of section covers may be attached in the same manner as sections 88, 89 to comprise a cover for larger hatches.

The fluid pressure system is shown schematically in FIG. 12 and comprises a fluid supply tank 95, a motor 96 which simultaneous-1y drives pumps 97 and 98. Pump 97 has its suction side connected to the supply tank and supplies fluid under a pressure of 3000 p.s.i. to a main line 99 which in turn supplies pressure to the cover section opening cylinders 28. Pump 98 also has its suction side connected to the supply tank and supplies fluid under a pressure of 3000 p.s.i. to a main line 100 which in turn supplies pressure to the cover support and seal breaking cylinders 61, the cover edge locking mechanism cylinders 78, and the open cover lock cylinder 78. A conventional four-way valve 101 controls the flow of fluid from line 99 into the cover section opening cylinder 28 so that the line may selectively be completely closed, or the fluid may bypass this cylinder, or the fluid may be directed into either port 31 or 32 of cylinder 28. A temperature compensated flow control valve 102 of the type made by Vickers, type FCG 02-1000-20, is positioned in line 99 on the upstream side of the four-way valve 101. Valve 102 is so constructed that the flow away from the fourway valve is precisely controlled to a pre-set gallons-perminute flow, Additionally, the gallons-per-minute flow is accurately controlled by self-adjustment to compensate for temperature-viscosity-flow characteristics relative to maintaining the pre-set gallons-per minute flow. Cylinders 61, 78 and 78' are operatively connected in parallel with the line 100 and each has a four-way valve 103, 104

and 105, respectively, between its cylinder and the line 100. Each of these four-way valves operates in the same manner as four-way valve 101. As stated above, each cylinder 61 actuates a cover section support and seal breaking mechanism on a hatch cover and all of the cylinders are simultaneously controlled by the four-way valve 103. Similarly, each of the cylinders 78 which actuates the cover edge locking mechanisms 69 are simultaneously controlled by the four-way valve 103. Each of the lines 99 and has a safety valve and return line 106, a bypass line and valve 107. An emergency connecting line and valve 108 connects lines 99 and 100 so that the fluid pressure from either of the pumps may circulate in both of the lines should either of the pumps fail to operate. In addition, an emergency pump 109 with suitable check valves 109 connects lines 99 and 100 in case both pumps should fail. It is to be understood that more than one hatch cover can be controlled from this system by connecting the appropriate actuating cylinders for these additional covers in series with each of the appropriate actuating cylinders so that the particular four-way valve for those cylinders will simultaneously control all of those particular actuating cylinders at the same time.

The fluid pressure system for the operation of the modified cover section of FIG. 5 is shown in phantom lines on FIG. 12 and comprises a flow control valve 111 of the same type as valve 102, a four-way valve 112, and a cylinder 28 of the same construction and operation as cylinder 28. When the cover comprises four sections, as shown in FIG. 5, the cylinder 28 not only has to lift sections 15 and 16 into a vertical plane but also has to pull sections 88 and 89 clear of the hatch. It is also to be understood that additional cylinders 61 to actuate the additional cover support and seal breaking mechanisms 91 and 92 for each hatch cover are connected in series with the other cylinders 61 so that all are simultaneously controlled by the valve 103.

For purposes of describing the operation of this invention, it is assumed that the hatch cover sections are locked in open position clear of the hatch as shown in FIG. 4 and that fluid pressure is being maintained in lines 99 and 100. First valve is moved to direct fluid pressure into port 81 which in turn moves the locking arm 86 out of engagement with flange 87 and permits the cover sections to be moved into a horizontal plane. Valve 101 is then moved to direct fluid pressure into port 31 of cylinder 28 which in turn as previously described, causes the cover sections 15, 16 to be horizontally extended end to end to cover the hatch. When the cover sections are covering the hatch, the valve 103 is moved to direct fluid pressure into port 65 of cylinder 61 so that the wheels 56 are raised, as earlier described, and the cover sections are lowered to come to rest on the rib member 39. The valve 104 is then positioned so that fluid pressure is directed into port 80 of each of the cylinders 79 to move each of contact pads 76 which are spaced about the edge of the hatch into engagement with the channel bar 82 on the cover sections whereby the cover sections are pulled down into sealing contact with the rib 39. As described earlier, all the locking mechanisms are so designed that they cannot operate without being actuated as described so that when the cover sections are extended over and sealed to the hatches, they will remain in this condition without the necessity of maintaining a fluid pressure in lines 99 and 100. When it is desired to open the hatch covers, the reverse of the above procedure is followed. It will also be understood that a plurality of hatch covers can be operatively connected to be simultaneously opened and closed.

Various changes may be made in the means to actuate the mechanisms and in the design and arrangement of the parts of the illustrated embodiment without departing from the spirit and scope of the invention as will now be clear to those skilled in the art. It is therefore to be expressly understood that the present invention is not 7 limited to the particular embodiment thereof herein illustrated and described.

What is claimed is:

Hatch cover arrangement on board ships, railway wagons and the like comprising at least two hatch cover sections having two adjacently located edges, a free space between the adjacent edges of said sections, protruding extensions fixedly provided on the adjacent edges of said sections facing each other and extending into said space, circular practically identical toothed edge portions on said extensions in mutual continuous meshing engagement, the centers of the circles corresponding to said circular edge portions being situated on said respective extensions, pivot pins located on said extensions centrally with respect to said toothed edge portions, a connecting link forming member pivotally mounted on said two pivots, an arm forming extension on said link member and jack means with a jack rod pivotally mounted on one of said sections and having its jack rod pivotally connected to said arm forming extension to bring said section in the hatch closing and the hatch opening positions.

References Cited by the Examiner UNITED STATES PATENTS 1,000,707 8/1911 Bang 160-488 X 2,583,053 1/1952 Kestner et al 292256.5' 2,627,835 2/1953 Mege 114 -203 2,780,197 2/1957 Von Tell 1l4--202 2,831,448 4/1958 Suderow 114-202 2,834,504 5/1958 Annico 292201' X 2,891,500 6/1959 Appleton et'al. 114-202 2,901,279 8/1959 MacNaught et al. 292256.5 2,981,326 4/1961 MacGregor 160188 FOREIGN PATENTS 55,607 5/ 1952 France.

HARRISON R. MOSELEY, Primary Examiner.

20 A. H. FARRELL, P. M. CAUN, Assistant Examiners. 

